JP6287259B2 - Electronics - Google Patents

Description

  The present invention relates to an electronic apparatus including an operation unit that is detachable from an apparatus main body and capable of communicating with the apparatus main body.

In recent years, due to increasing awareness of environmental regulations and environmental load problems, it is required to reduce power consumption in electronic devices and electrical products in general. For this reason, even in image forming apparatuses such as copying machines, facsimiles, and printers that are electronic devices, from the viewpoint of raising awareness of environmental problems and reducing electricity bills, Increasingly, devices that support low power consumption are being purchased year by year.
As such a technique, a control technique for supplying power from a secondary battery charged with a solar battery has been proposed for the purpose of reducing power consumption during energy saving operation (power saving operation) of the image forming apparatus.

Japanese Patent Application Laid-Open No. 2004-268831 determines the presence or absence of a person from the change in output of a solar cell panel provided to reduce the power consumption of the image forming apparatus, and returns from the power saving operation mode to the normal operation mode. An image forming apparatus that shifts to a power saving operation mode when not using is described.
Specifically, Japanese Patent Application Laid-Open No. 2004-228867 omits a case where a solar battery panel is provided on the operation unit of the image forming apparatus and the upper part of the automatic document feeder, and the room lighting is turned off when the output of the solar battery panel is reduced. It is described that the mode is shifted to the power mode, and when the output of the solar cell panel installed in the operation unit is lowered, the mode is determined to be present and the mode is shifted to the normal operation mode.

Further, there has been proposed an image forming apparatus that includes an operation unit that is detachable from the image forming apparatus main body, can be carried, and can communicate with the image forming apparatus main body. In such an image forming apparatus, when the operation unit is detached from the image forming apparatus main body, there is a problem that power cannot be supplied from the image forming apparatus main body to the operation unit.
Further, when the operation unit is detached from the image forming apparatus main body and used, even if a rechargeable battery is mounted in the operation unit, the battery cannot be used unless the battery in the operation unit is charged in advance from an external AC adapter power source. is there.
Here, the device described in Patent Document 1 is a device in which a solar cell is installed in the operation unit, and the presence or absence of a person is determined from a change in the output of the solar cell. It is installed in the apparatus, and the operation unit cannot be removed from the main body of the image forming apparatus.
The present invention has been made in view of the above, and an object thereof is to reliably supply power to an operation unit in an electronic device including an operation unit that can be attached to and detached from the apparatus main body.

An electronic apparatus for solving the above-described problem is an electronic apparatus including an apparatus main body and an operation unit that can be attached to and detached from the apparatus main body and can communicate with the apparatus main body. The apparatus main body includes the apparatus main body. A first power supply for supplying electric power to the entire power supply, and the operation unit is charged by the power generation means for generating power using external light, voltage detection means for detecting the power generation voltage of the power generation means, and the power generation means. And a second power source that supplies power to the operation unit, an operation unit state detection unit that detects a state of the operation unit, a detection result that the external light is blocked by the voltage detection unit, and the operation unit state Power supply control means for controlling power supply from at least one of the first power supply and the second power supply to the operation unit based on the detection result of the human body by the detection means. And

  According to the present invention, power can be reliably supplied to the operation unit even when the operation unit is used while being attached to the apparatus main body.

1 is a block diagram showing a basic configuration of an image forming apparatus as an electronic apparatus according to a first embodiment of the present invention. 3 is a flowchart showing a basic operation of the image forming apparatus. 6 is a flowchart illustrating an operation of an image forming apparatus as an electronic apparatus according to a second embodiment of the present invention. 10 is a flowchart illustrating an operation in a state 4 of the image forming apparatus according to the second embodiment. 10 is a flowchart showing an operation in state 5 of the image forming apparatus. 4 is a flowchart showing an operation of a charging control unit of the image forming apparatus. 14 is a flowchart illustrating an operation in a state 4 of the image forming apparatus according to the third embodiment. 10 is a flowchart showing an operation in state 5 of the image forming apparatus.

  An electronic device according to an embodiment of the present invention will be described. An electronic apparatus according to an embodiment relates to an image forming apparatus, and includes an apparatus main body and an operation unit that is detachable from the apparatus main body and can communicate with the apparatus main body. The apparatus main body includes a first power source that supplies electric power to the entire apparatus main body. The operation unit further includes a power generation unit that generates power using external light, a voltage detection unit that detects a power generation voltage of the power generation unit, a second power source that is charged by the power generation unit and supplies power to the operation unit, Power supply for controlling power supply from at least one of the first power source and the second power source to the operation unit based on a detection result of the operation unit state detection unit for detecting the state of the unit and the voltage detection unit Control means.

<First Embodiment>
Hereinafter, the configuration of the image forming apparatus 100 which is the first embodiment of the electronic apparatus according to the invention will be described. FIG. 1 is a block diagram showing a basic configuration of an image forming apparatus as an electronic apparatus according to the first embodiment of the present invention. The image forming apparatus 100 includes an apparatus main body 200 and an operation unit 300 that can be detached from the apparatus main body 200 and can communicate with the apparatus main body 200. The apparatus main body 200 includes a power control unit 210 and an image forming unit 220.
The power supply control unit 210 includes a first power supply 211 that supplies DC power to the entire image forming unit 220 of the image forming apparatus 100 during normal operation, and a power supply control unit 212. The first power supply 211 supplies power to the entire image forming unit 220 from the power supply path 214 during normal operation. The power supply control unit 212 uses the first power supply 211 or the second power supply 304 to supply power to the operation unit 300 based on the detection result of the voltage detection unit 305 and the detection result of the operation unit state detection unit 306 described later. Control whether to supply. When the operation unit 300 is attached to the image forming unit in the apparatus main body 200, control is performed so that the second power source 304 of the operation unit 300 is charged from the first power source 211. Reference numeral 213 denotes an outlet connected to a commercial AC power source. Reference numeral 214 denotes a power supply path for supplying power from the first power supply 211 to the operation unit 300 in a state where the operation unit 300 is attached to the apparatus main body 200.

The image forming unit 220 includes a CPU (Micro Processing Unit) 221, a memory 222, a hard disk drive (HDD) 223, and an image forming unit 224 that is an image forming unit. The CPU 221 controls the operation of the image forming unit 220. The memory 222 includes a ROM (Read Only Memory) and a RAM (Random Access Memory), and forms image image data of a print job and temporarily stores data when the CPU 221 performs data processing. The hard disk drive 223 writes (accumulates) image image data of a print job formed by the memory 222, and reads the accumulated image image data.
The image forming unit 224 reads out the image image data formed by the memory 222 or the image image data stored in the hard disk drive 223 and prints it on a recording sheet as a recording medium. The image forming unit 224 includes, for example, an electrophotographic image forming unit. The image forming unit 224 is not limited to an electrophotographic type, and an image forming unit that forms an image by inkjet can be used.

The operation unit 300 includes a CPU (Micro Processing Unit) 301, a memory 302, a solar cell 303, a second power source 304, a voltage detection unit 305, an operation unit state detection unit 306, a threshold adjustment unit 307, a display unit 308, and a wireless communication unit 309. And charging control means 312. The operation unit CPU 301 controls the operation unit 300. In addition, the operation unit CPU 301 operates as a connection detection unit that detects whether the operation unit 300 is physically connected to the apparatus main body 200 or not. The memory 302 includes a ROM (Read Only Memory) and a RAM (Random Access Memory), and stores drawing data of the display unit 308 and temporarily stores data when the operation unit CPU 301 performs data processing. The solar cell 303 generates power with external light and charges the second power source 304. In addition, known materials such as amorphous silicon can be used. Further, instead of the solar cell 303, LED power generation may be used in which light from an LED fluorescent tube or the sun is received by a plurality of LED elements to generate power.
The second power supply 304 stores DC power generated by the first power supply 211 and the solar battery 303 and supplies power to the operation unit 300. As the second power source 304, a known secondary battery such as a lithium ion secondary battery or a nickel metal hydride secondary battery can be used.

The voltage detection unit 305 detects the power generation voltage of the solar battery 303. Thereby, it is possible to detect that the solar cell 303 is an operator and the light from the light source is blocked. The operation unit state detection unit 306 detects the state of the operation unit 300 of the operation unit state detection unit 306, that is, whether there is a person close to the operation unit 300. Details will be described later.
The threshold adjustment unit 307 includes a plurality of generation voltages of the solar cell 303 according to the illuminance condition of the place where the operation unit 300 is disposed and the received light level of external light converted from the physical position condition (position and orientation) of the operation unit 300. Are stored and managed as a table in the memory 302. Thereby, the threshold value of the power generation voltage of the solar cell 303 is preset or adjusted from the display unit 308 according to the illuminance condition of the place where the operation unit 300 exists or the physical condition (position or orientation) of the operation unit 300. . In the image forming apparatus 100 according to the present embodiment, the solar cell 303 charges the second power source 304 with the generated power, and the operation unit 300 enters a shadow portion of the illumination, and the light incident on the solar cell 303 is blocked. It also serves as a sensor to determine whether or not

The display unit 308 is configured with a liquid crystal touch panel or the like, and displays various information regarding print settings of the image forming apparatus 100 and performs various settings when printing. The wireless communication unit 309 performs wireless communication between the operation unit 300 and the apparatus main body 200. Reference numeral 311 denotes a power supply path for supplying power from the second power supply 304 to the entire operation unit 300 during normal operation.
Based on an instruction from the operation unit CPU 301, the charging control unit 312 shuts off the power supply from the second power source 304 of the operation unit CPU 301, and first power is supplied from the first power source 211 of the power control unit 210. The second power supply 304 is charged with the power output from the power supply 211.
The image forming apparatus 100 includes a human body detection unit as the operation unit state detection unit 306, detects the operator who uses the operation unit state detection unit 306 from the apparatus main body 200, and determines the presence or absence of a person. To do.

Next, the operation of the image forming apparatus 100 will be described.
FIG. 2 is a flowchart showing the basic operation of the image forming apparatus. The operation unit CPU 301 detects whether the operation unit 300 is physically connected to the apparatus main body 200 or not (step S101). Further, the threshold value adjusting unit 307 previously sets and adjusts the threshold value of the generated voltage of the solar cell 303 from the display unit 308 (step S102). In a state where the operation unit 300 is physically in contact with the image forming unit 220 of the apparatus main body 200, that is, in a connected state, the power supply control unit 212 passes through the power supply path 214 from the first power supply 211 of the power supply control unit 210. Thus, electric power is supplied to the entire apparatus main body of the image forming unit 220. At the same time, power is supplied from the first power supply 211 of the power supply control unit 210 to the operation unit 300 via the power supply path 214 (step S103).
Moreover, the solar cell 303 is charging the 2nd power supply 304 with the electric power generated with external light (step S104). In this state, the voltage detection unit 305 constantly monitors the power generation voltage of the solar cell 303 (step S105), and the voltage detection unit 305 determines whether the power generation voltage of the solar cell 303 is equal to or higher than a predetermined threshold value. When it is determined that the value is less than the predetermined value (Yes in step S106), the voltage detection unit 305 notifies the operation unit state detection unit 306 of the detection information (step S107). Next, the operation unit state detection unit 306 that has acquired the notification information determines the acquired predetermined specific information, and notifies the operation unit CPU 301 of this determination information (step S108).

The power supply control unit 212 supplies power to the operation unit 300 when the operation unit CPU 301 detects a physical connection state between the operation unit 300 and the image forming unit 220. A power supply signal is output to the first power supply 211, and power is supplied to the operation unit 300 from the first power supply 211 of the power supply control unit 210 (step S109). On the other hand, when the operation unit 300 detects that the operation unit 300 is physically disconnected from the image forming unit 220, the operation unit CPU 301 supplies a power supply signal to the second power supply 304 such as a secondary battery of the operation unit 300. Is supplied to the operation unit 300 from the second power source 304 such as a secondary battery (step S110).
According to 1st Embodiment, the electric power supply source to an operation part is selected based on the attachment state to the apparatus main body of an operation part, the power generation voltage of a solar cell, and the detection result of an operation part state detection means. For this reason, the optimal power supply according to the arrangement | positioning state to the apparatus main body of an operation part and the use condition of an operation part can be selected. Therefore, even when the operation unit is detached from the apparatus main body and used, the problem that power cannot be supplied from the apparatus main body to the operation unit is solved. Further, it is not necessary to charge the operation unit removed from the main body of the image forming apparatus from an external AC adapter power supply to the battery in the operation unit in advance.

Second Embodiment
Next, an image forming apparatus that is an electronic apparatus according to the second embodiment will be described. The image forming apparatus according to the second embodiment has basically the same configuration as the image forming apparatus shown in FIG. In the image forming apparatus according to the second embodiment, the operation unit state detection unit 306 is a human body detection unit capable of detecting a human body using the operation unit 300. The human body detection means detects the human body with infrared rays, ultrasonic waves, visible light, or the like. Thereby, the person who operates the operation unit 300 is detected.
First, a basic operation of the image forming apparatus 100 according to the second embodiment will be described. FIG. 3 is a flowchart showing the operation of the image forming apparatus as the electronic apparatus according to the second embodiment of the present invention. In the present embodiment, the power supply control unit 212 compares the detection result (ST100) of the operation unit 300 by the operation unit CPU301 with the comparison result between the solar cell voltage detected by the voltage detection unit 305 and a predetermined threshold (ST110, ST120) and the power supply source to the operation unit 300 are switched to the first power supply 211 or the second power supply 304 based on the human body detection results (ST111, ST112, ST121, ST122) by the operation unit state detection means 306. .

This state is summarized as follows.
State 1 (when the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar cell 303 is equal to or lower than the threshold value, and a human body is detected): The operation unit 300 is in the connected state, and the solar cell is in the shadow portion of the illumination. There is a person who is placed and operates. In this case, power is supplied to the operation unit 300 from the first power supply 211.
State 2 (when the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar cell 303 is equal to or lower than the threshold value, and no human body is detected): The operation unit 300 is in a connected state, and the solar cell 303 is a shadow portion of illumination. There is no person to operate. In this case, power is supplied to the operation unit 300 from the first power supply 211.
State 3 (when the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar cell 303 exceeds the threshold value, and a human body is detected): The operation unit 300 is in a connected state and the operation unit 300 is illuminated. There is a person who performs the operation. In this case, power is supplied to the operation unit 300 from the first power supply 211.

State 4 (when the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar cell 303 exceeds the threshold value, and no human body is detected): The operation unit 300 is in the connected state and the operation unit 300 is illuminated. There is no person to operate. In this case, the operation unit 300 is arranged in the apparatus main body 200 and there is no person to operate. In this case, power is supplied from the first power supply 211.
State 5 (when the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar cell 303 is equal to or lower than the threshold value, and a human body is detected): The operation unit 300 is in a disconnected state, and the operation unit 300 is There is a person who is in the shadow part of the lighting and performs the operation. In this case, power is supplied to the operation unit 300 from the second power supply 304.
State 6 (when the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar battery 303 is equal to or lower than the threshold value, and no human body is detected): The operation unit 300 is in a disconnected state, and the operation unit 300 There is no person to operate in the shadow area of the lighting. In this case, power is supplied to the operation unit 300 from the second power supply 304.

State 7 (when the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar cell 303 exceeds the threshold value, and a human body is detected): The operation unit 300 is in a disconnected state, and the operation unit 300 is illuminated. There is a person who performs the operation. In this case, power is supplied to the operation unit 300 from the second power supply 304.
State 8 (when the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar cell 303 exceeds the threshold value, and no human body is detected): The operation unit 300 is in a disconnected state, and the operation unit 300 is illuminated. There is a person who is in an operated state and performs an operation. In this case, power is supplied to the operation unit 300 from the second power supply 304.

Hereinafter, the processing of the electronic apparatus according to this embodiment will be described in detail using the state 4 and the state 5 as an example. First, a state (state 4) in which the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar cell 303 exceeds the threshold, and the operation unit state detection unit 306 detects a human body will be described. FIG. 4 is a flowchart showing an operation in the state 4 of the image forming apparatus according to the second embodiment.
A threshold value of the power generation voltage of the solar cell 303 is set and adjusted in advance from the display unit 308 by the threshold adjustment unit 307 in advance. In this state, the operation unit CPU 301 detects whether the operation unit 300 is physically connected to the apparatus main body 200 or not (step S201). Further, the operation unit CPU 301 detects the power generation voltage of the solar cell 303 by the voltage detection unit 305 (step S203), and detects the human body by the human body detection unit of the operation unit state detection unit 306 (step S205).

  In this state, it is assumed that the operation unit 300 is connected to the apparatus main body 200 (step S202), the detected power generation voltage of the solar cell 303 exceeds the threshold value (step S204), and no human body is detected (S206). The power supply control unit 212 causes the operation unit 300 to supply power from the first power supply 211 (step S207). If it is determined in steps S202, S204, and S206 that are different from those described above, the process proceeds to each process (step S208). As described above, when the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar battery 303 exceeds the threshold value, and no human body is detected, the power supply to the operation unit 300 is appropriately performed from the first power source. The

Next, a state (state 5) in which the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar cell 303 is equal to or lower than a threshold value, and the operation unit state detection unit 306 detects a human body will be described. FIG. 5 is a flowchart showing an operation in state 5 of the image forming apparatus.
A threshold value of the power generation voltage of the solar cell 303 is set and adjusted in advance from the display unit 308 by the threshold adjustment unit 307 in advance. In this state, the operation unit CPU 301 detects whether or not the operation unit 300 is physically connected to the apparatus main body 200 (step S301), and the voltage detection unit 305 determines the power generation voltage of the solar cell 303. It is detected (step S303), and the human body is detected by the human body detection means of the operation unit state detection means 306 (step S305).

In this state, it is assumed that the operation unit 300 is not connected to the apparatus main body 200 (step S302), the detected power generation voltage of the solar cell 303 is equal to or lower than the threshold value (step S304), and a human body is further detected (step S302). In step S306, the power supply control unit 212 causes the operation unit 300 to supply power from the second power source 304 (step S307).
If it is determined in steps S302, S304, and S306 that are different from those described above, the process proceeds to each process (step S308). As described above, when the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar battery 303 is equal to or lower than the threshold value, and a human body is detected, the power supply to the operation unit 300 is the second power source. Is made properly.

  In this embodiment, the charging control means 312 operates as follows. FIG. 6 is a flowchart showing the operation of the charging control means. When the operation unit CPU 221 detects that the operation unit 300 is connected to the apparatus main body 200, the power supply control unit 212 blocks the power supply to the operation unit 300 from the second power source 304 (step S401). As a result, power is supplied from the first power supply 211 to the operation unit 300. Then, the charging control unit 312 supplies power from the first power supply 211 of the power supply control unit 210 to the second power supply 304 of the operation unit 300 to charge (step S402). Thereby, charging to the 2nd power supply 304 can be performed appropriately according to the installation state of the operation part 300 in an apparatus main body.

  According to the second embodiment, whether the operation unit is mounted on the apparatus main body, whether the operation unit is arranged in the shadow of the operator based on the generated voltage of the solar cell, and detection of the human body by the operation unit state detection means An electrode supply source to the operation unit is selected based on the presence or absence. For this reason, the optimal charging of the second power supply according to various states such as the arrangement state of the operation unit on the apparatus main body, the arrangement state of the operation unit, and whether or not the human body is close to the operation unit. You can select the power source.

<Third Embodiment>
Next, a third embodiment will be described. In the third embodiment, the threshold adjustment unit 307 includes a capacitance detection unit that detects a capacitance. The capacitance detection means detects a change in the capacitance of the material of the operation unit 300, that is, the outer cover of the operation unit 300, the liquid crystal panel, or the like. Thereby, it is determined whether or not there is a person who uses the operation unit 300 by removing it from the apparatus main body 200. For this reason, the same judgment as that shown in FIG. 3 is performed.
Hereinafter, the processing of the electronic apparatus according to this embodiment will be described in detail using the state 4 and the state 5 as an example. First, a state (state 3) in which the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar cell 303 exceeds the threshold value, and the operation unit state detection unit 306 detects a human body will be described. FIG. 7 is a flowchart showing an operation in the state 4 of the image forming apparatus according to the third embodiment.

A threshold value of the power generation voltage of the solar cell 303 is set and adjusted in advance from the display unit 308 by the threshold adjustment unit 307 in advance. In this state, the operation unit CPU 301 detects whether the operation unit 300 is physically connected to the apparatus main body 200 or not (step S501). The operation unit CPU 301 detects the power generation voltage of the solar cell 303 by the voltage detection unit 305 (step S503), and detects the human body by the human body detection unit of the operation unit state detection unit 306 (step S505).
In this state, it is assumed that the operation unit 300 is connected to the apparatus main body 200 (step S502), the detected power generation voltage of the solar cell 303 exceeds the threshold value (step S504), and no human body is detected (step S506). The power supply control unit 212 causes the operation unit 300 to supply power from the first power supply 211 (step S507). If it is determined in steps S202, S204, and S206 that are different from those described above, the process proceeds to each process (step S508). As described above, when the operation unit 300 is connected to the apparatus main body 200, the voltage of the solar battery 303 exceeds the threshold value, and no human body is detected, the power supply to the operation unit 300 is appropriately performed from the first power source. The

Next, a state (state 5) in which the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar cell 303 is equal to or lower than a threshold value, and the operation unit state detection unit 306 detects a human body will be described. FIG. 7 is a flowchart showing the operation in state 5 of the image forming apparatus.
A threshold value of the power generation voltage of the solar cell 303 is set and adjusted in advance from the display unit 308 by the threshold adjustment unit 307 in advance. In this state, the operation unit CPU 301 detects whether the operation unit 300 is physically connected to the apparatus main body 200 or not (step S601). The operation unit CPU 301 detects the power generation voltage of the solar cell 303 by the voltage detection unit 305 (step S603), and detects the human body by the human body detection unit of the operation unit state detection unit 306 (step S605).

In this state, it is assumed that the operation unit 300 is not connected to the apparatus main body 200 (step S602), the detected power generation voltage of the solar cell 303 is equal to or lower than the threshold value (step S604), and a human body is further detected (step S604). In step S606, the power supply control unit 212 causes the operation unit 300 to supply power from the second power source 304 (step S607).
If it is determined in steps S602, S604, and S606 that are different from those described above, the process proceeds to each process (step S608). As described above, when the operation unit 300 is not connected to the apparatus main body 200, the voltage of the solar battery 303 is equal to or lower than the threshold value, and a human body is detected, the power supply to the operation unit 300 is the second power source. Is made properly. The operation of the charging control unit 312 is the same as that in the second embodiment.

According to the third embodiment, whether the operation unit is mounted on the apparatus main body, whether the operation unit is arranged in the shadow of the operator based on the power generation voltage of the solar cell, and the capacitance of the operation unit state detection unit An electrode supply source to the operation unit is selected based on whether or not a human body is detected based on the detection. For this reason, the optimal charging of the second power supply according to various states such as the arrangement state of the operation unit on the apparatus main body, the arrangement state of the operation unit, and whether or not the human body is close to the operation unit. You can select the power source.
In each of the above embodiments, the image forming apparatus has been described as an example of the electronic apparatus. However, the present invention is an electronic apparatus that includes an apparatus main body and an operation unit that is detachable from the apparatus main body and can communicate with the apparatus main body. Any device can be applied to electronic devices other than the image forming apparatus. That is, the present invention can be applied to an image processing apparatus such as a projector or a video conference system, and other apparatuses.

<Examples of Embodiments and Effects of the Present Invention>
<First aspect>
An electronic apparatus according to this aspect includes an apparatus main body and an operation unit that is detachable from the apparatus main body and capable of communicating with the apparatus main body. The apparatus main body supplies power to the entire apparatus main body. A power source, and a power source that generates power using external light, a voltage detector that detects a power generation voltage of the power generator, and a second power source that is charged by the power generator and supplies power to the operating unit. And from the at least one of the first power source and the second power source to the operation unit based on the detection result of the operation unit state detection unit for detecting the state of the operation unit, the detection result of the voltage detection unit and the detection result of the operation unit state detection unit And a power supply control means for controlling the power supply to be performed.
According to this aspect, since control is performed so that power is supplied from at least one of the first power source and the second power source to the operation unit, the operation unit is used in addition to the case where the operation unit is attached to the device body. Even when it is used after being detached from the power supply, power can be reliably supplied to the operation unit.

<Second aspect>
Electronic device of the present embodiment, the operation unit is provided with a connection detecting means for detecting whether an unconnected state or an apparatus main body and the physical connection state, the power supply control unit, the operation unit by the connection detecting means When the operation unit state detection means detects a human body, it is determined that the power generation voltage of the power generation means detected by the voltage detection means exceeds a predetermined threshold. The electric power is supplied from the second power source to the operation unit.
According to this aspect, when the operation unit and the apparatus main body are in a disconnected state, the power generation voltage of the power generation means exceeds a predetermined threshold value, and when a human body is detected, power is supplied from the second power source to the operation unit. Since power is supplied, even when the operation unit is detached from the apparatus main body and used, power can be reliably supplied to the operation unit.

<Third aspect>
Electronic device of the present embodiment, the operation unit is provided with a connection detecting means for detecting whether an unconnected state or an apparatus main body and the physical connection state, the power supply control unit, the operation unit by the connection detecting means And the apparatus main body are detected to be in a connected state, and it is determined that the power generation voltage of the power generation means detected by the voltage detection means is equal to or lower than a predetermined threshold, and the operation unit state detection means detects the human body. When not, power is supplied from the first power source to the operation unit.
According to this aspect, when the operation unit and the apparatus main body are in a connected state, the power generation voltage of the power generation means is not more than a predetermined threshold value, and no human body is detected, power is supplied from the first power source to the operation unit. Therefore, when the operation unit is attached to the apparatus main body and used, power can be reliably supplied to the operation unit.

<4th aspect>
The electronic apparatus according to this aspect includes a connection detection unit that detects whether the operation unit is physically connected to or disconnected from the apparatus main body, and the operation unit state detection unit includes the capacitance of the operation unit. The power supply control means detects that the operation unit and the apparatus main body are not connected by the connection detection means, and the generated voltage of the power generation means detected by the voltage detection means is provided. When it is determined that a predetermined threshold value is exceeded and a human body is detected based on the capacitance value detected by the capacitance detection means, power is supplied from the second power source to the operation unit. .
According to this aspect, when the operation unit and the apparatus main body are in a disconnected state, the power generation voltage of the power generation means exceeds a predetermined threshold value, and the human body is detected based on the capacitance value, the second Since power is supplied from the power source to the operation unit, power can be reliably supplied to the operation unit even when the operation unit is detached from the apparatus main body.

<5th aspect>
The electronic apparatus according to this aspect includes a connection detection unit that detects whether the operation unit is physically connected to or disconnected from the apparatus main body, and the operation unit state detection unit includes the capacitance of the operation unit. The power supply control means detects that the operation unit and the apparatus main body are connected by the connection detection means, and the power generation voltage of the power generation means detected by the voltage detection means is determined in advance. When the human body is not detected based on the capacitance value detected by the capacitance detection means and determined to be equal to or less than a predetermined threshold, power is supplied from the first power source to the operation unit. .
According to this aspect, when the operation unit and the apparatus main body are in a connected state, the power generation voltage of the power generation means is equal to or lower than a predetermined threshold value, and the human body is not detected based on the capacitance value, the first Since power is supplied from the power source to the operation unit, when the operation unit is attached to the apparatus main body and used, power can be reliably supplied to the operation unit.

<Sixth aspect>
The electronic device according to this aspect performs charging from the first power source to the second power source when the power supply from the second power source to the operation unit is interrupted and power is supplied from the first power source to the operation unit. Charge control means is provided.
According to this aspect, when the power supply from the second power source to the operation unit is interrupted and the power supply from the first power source to the operation unit is performed, charging from the first power source to the second power source is performed. Thus, charging from the first power source to the second power source 304 can be performed appropriately.

<Seventh aspect>
The electronic apparatus according to this aspect includes an image forming unit that records an image on a recording medium.
According to this aspect, any one electronic device of the first aspect to the sixth aspect can be applied to an image forming apparatus having an image forming unit.

DESCRIPTION OF SYMBOLS 200 ... Apparatus main body, 211 ... 1st power supply, 212 ... Power supply control means, 300 ... Operation part, 303 ... Solar cell, 304 ... 2nd power supply, 305 ... Voltage detection means, 306 ... Operation part state detection means

JP 2010-66372 A

Claims (7)

An electronic device comprising: an apparatus main body; and an operation unit that is detachable from the apparatus main body and capable of communicating with the apparatus main body,
The apparatus main body is
A first power source for supplying power to the entire apparatus body;
The operation unit is
Power generation means for generating power using outside light;
Voltage detection means for detecting the power generation voltage of the power generation means;
A second power source charged by the power generation means and supplying power to the operation unit;
Operation unit state detection means for detecting the state of the operation unit;
Based on the detection result that the external light is blocked by the voltage detection unit and the detection result of the human body by the operation unit state detection unit, from at least one of the first power source and the second power source to the operation unit And an electric power supply control means for controlling the electric power to be supplied. The operation unit includes connection detection means for detecting whether the apparatus main body is physically connected or disconnected .
Before Symbol power supply control means,
Detecting that the operation unit and the apparatus main body are in a non-connected state by the connection detection means, determining that the power generation voltage of the power generation means detected by the voltage detection means exceeds a predetermined threshold; and The electronic apparatus according to claim 1, wherein when the operation unit state detection unit detects a human body, power is supplied from the second power source to the operation unit. The operation unit includes connection detection means for detecting whether the apparatus main body is physically connected or disconnected .
Before Symbol power supply control means,
The connection detection means detects that the operation unit and the apparatus main body are connected, and determines that the power generation voltage of the power generation means detected by the voltage detection means is equal to or less than a predetermined threshold value. 2. The electronic apparatus according to claim 1, wherein when the operation unit state detection unit does not detect a human body, power is supplied from the first power source to the operation unit. The operation unit includes connection detection means for detecting whether the apparatus main body is physically connected or disconnected.
The operation unit state detection unit includes a capacitance detection unit that detects a capacitance of the operation unit,
The power supply control means is
Detecting that the operation unit and the apparatus main body are in a non-connected state by the connection detection means, determining that the power generation voltage of the power generation means detected by the voltage detection means exceeds a predetermined threshold; and The electronic apparatus according to claim 1, wherein when a human body is detected based on a capacitance value detected by the capacitance detection unit, power is supplied from the second power source to the operation unit. The operation unit includes connection detection means for detecting whether the apparatus main body is physically connected or disconnected.
The operation unit state detection unit includes a capacitance detection unit that detects a capacitance of the operation unit,
The power supply control means is
Detecting that the operation unit and the apparatus main body are connected by the connection detection means, determining that the power generation voltage of the power generation means detected by the voltage detection means is less than or equal to a predetermined threshold; and 2. The electronic apparatus according to claim 1, wherein when no human body is detected based on a capacitance value detected by the capacitance detection means, power is supplied from the first power source to the operation unit.   Charging for charging from the first power source to the second power source when power supply from the second power source to the operating unit is interrupted and power is supplied from the first power source to the operating unit. The electronic apparatus according to claim 1, further comprising a control unit.   The electronic apparatus according to claim 1, further comprising an image forming unit that records an image on a recording medium.

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